LTC6084 查看數據表(PDF) - Linear Technology
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LTC6084 Datasheet PDF : 16 Pages
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LTC6084/LTC6085
APPLICATIONS INFORMATION
NO SOLDER MASK
OVER THE GUARD RING
NO LEAKAGE
CURRENT
R
LEAKAGE
CURRENT
GUARD
RING
OUT
LTC6084
IN–
IN+
V–
60845 F01
R
R
VIN
GND
OUT
LTC6084
IN–
IN+
V–
60845 F02
Figure 1. Sample Layout. Unity-Gain Configuration. Using Guard
Ring to Shield High Impedance Input from Board Leakage
Figure 2. Sample Layout. Inverting Gain Configuration. Using
Guard Ring to Shield High Impedance Input from Board Leakage
Rail-to-Rail Input
The input stage of LTC6084/LTC6085 combines both PMOS
and NMOS differential pairs, extending its input common
mode voltage to both positive and negative supply volt-
ages. At high input common mode range, NMOS pair is
on. At low common mode range, the PMOS pair is on. The
transition happens when the common voltage is between
1.3 and 0.9V below the positive supply.
Achieving Low Input Bias Current
The DD and DHC packages are leadless and make contact
to the PCB beneath the package. Solder flux used during
the attachment of the part to the PCB can create leakage
current paths and can degrade the input bias current per-
formance of the part. All inputs are susceptible because
the backside paddle is connected to V– internally. As the
input voltage or V– changes, a leakage path can be formed
and alter the observed input bias current. For lowest bias
current use the LTC6084/LTC6085 in the leaded MSOP/GN
package. With fine PCB design rules, you can also provide
a guard ring around the inputs.
For example, in high source impedance applications such as
pH probes, photo diodes, strain gauges, etc., the low input
bias current of these parts requires a clean board layout to
minimize additional leakage current into a high impedance
signal node. A mere 100GΩ of PC board resistance between
a 5V supply trace and input trace near ground potential
adds 50pA of leakage current. This leakage is far greater
10
than the bias current of the operational amplifier. A guard
ring around the high impedance input traces driven by a
low impedance source equal to the input voltage prevents
such leakage problems. The guard ring should extend
as far as necessary to shield the high impedance signal
from any and all leakage paths. Figure 1 shows the use
of a guard ring in a unity-gain configuration. In this case
the guard ring is connected to the output and is shielding
the high impedance noninverting input from V–. Figure 2
shows the inverting gain configuration.
Rail-to-Rail Output
The output stage of the LTC6084/LTC6085 swings within
5mV of the supply rails when driving high impedance
loads, in other words when no DC load current is present.
See the Typical Performance Characteristics for curves of
output swing versus load current. The class AB design of
the output stage enables the op amp to supply load cur-
rents which are much greater than the quiescent supply
current. For example, the room temperature short circuit
current is typically 12.5mA.
Capacitive Load
LTC6084/LTC6085 can drive a capacitive load up to 300pF in
unity gain. The capacitive load driving capability increases
as the amplifier is used in higher gain configurations. A
small series resistance between the output and the load
further increases the amount of capacitance the amplifier
can drive.
60845f
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